FACULTY of ARTS and SCIENCE Course Title Environmental Pollution Department Chemistry Division in the Dept. Corporate Code Term Level Type Language Credit hours/week Lecture Lab Credit ECTS Credit KIM 501 Fall Msc Elect ive Turkish 3 - 3 7 Course Prerequisites None Name of Instructors Professor. Dr. Mustafa DEMİR Instructor Information Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]Course Objective and brief Description Industrial and urban environmental pollutants and their effects on human and society health Textbook and Supplementary readings 1 Keleş R., Hamamcı C., (1993), Çevrebilim, İmge Kitabevi, Ankara 2 Türkiye’nin çevre sorunları, (2003), Türkiye Çevre Sorunları Vakfı Yayını, Ankara 3 Erdem Ü. (Edit), (2000), Çevre Bilimi, Ege Üni. çevre sorunları uyg. ve arş. mer. yayınları No:1, İzmir 4 COURSE CALENDAR / SCHEDULE Week Lecture topics Practice/Lab/Field 1 Environment and environmental problems 2 Ecology and ecologic factors 3 Sources of water pollutants 4 Physiological effects of environmental pollutants 5 Social effects of environmental pollutants 6 Health and environment 7 Environmental management 8 Midterm Exam 9 Precaution and dimensions of environmental pollution 10 Environmental problems in Turkey 11 Economical and social results of environmental problems 12 Sources, formation and results of global environmental problems 13 Sources, formation and results of local environmental problems 14 Final Exam Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral
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FACULTY of ARTS and SCIENCE
Course Title Environmental PollutionDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Industrial and urban environmental pollutants and their effects on human and society health
Textbook and Supplementary readings1 Keleş R., Hamamcı C., (1993), Çevrebilim, İmge Kitabevi, Ankara2 Türkiye’nin çevre sorunları, (2003), Türkiye Çevre Sorunları Vakfı Yayını, Ankara3 Erdem Ü. (Edit), (2000), Çevre Bilimi, Ege Üni. çevre sorunları uyg. ve arş. mer. yayınları No:1, İzmir4
4 Physiological effects of environmental pollutants
5 Social effects of environmental pollutants
6 Health and environment
7 Environmental management
8 Midterm Exam
9 Precaution and dimensions of environmental pollution
10 Environmental problems in Turkey
11 Economical and social results of environmental problems
12 Sources, formation and results of global environmental problems
13 Sources, formation and results of local environmental problems
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCE
Course Title Computer Usage in ResearchDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Aims to acquaint students with computers as tools of information processing and their applications
Textbook and Supplementary Readings1 Bilgisayar Grafikleri, Atılım Çetin, 2003, Seçkin Yayıncılık2 Veritabanı Mantığı, Kerem Köseoğlu, 2005, Pusula Yayıncılık ve İletişim San. Tic.Ltd.Şti.3 Computer Networks and Internets, Douglas E Comer, Ralph E. Droms, 2003, Printice Hall4 Network Systems Design Using Network Processors, Douglas E. Comer, 2005, Printice Hall
13 Web Design and Presentation in Web Media Design of web page
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
The underlying objective of the subjects of this course is to balance the background knowledge of students intending to continue their education in M.Sc. level, especially in analytical chemistry. Principles of various volumetric methods and advanced level pH calculation are treated once more. Furthermore, special emphasis is given to quantitation techniques, interference and problems of trace analysis.
Textbook and Supplementary readings1 Analitik Kimya Temelleri, 7. baskı. D.A. Skoog, D.M. West, F.C Holler. (E. Kılıç ve F. Köseoğlu, translation
editors) Bilim Yayıncılık. Ankara2 Principles of Analytical Chemistry. A Textbook. M. Valcarcel. Springer, 2000. 3 Analytical Chemistry. A Modern Approach to Analytical Science. Eds: R. Kellner, J.M. Mermet, M. Otto, M.
1 Significant figures, types of errors and error propagation2 Evaluation of statistical data 3 Principles of chemical analysis4 Titrimetry-General principles5 Equilibrium calculations in complex systems6 Titration of polyprotic acids and bases7 Factors affecting solubility8 Compleximetry9 Redox titrations
10 Quantitative techniques11 Interference and its12 Method choice in analyses13 Special problems in trace analysis14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Molecularly Imprinted Polymers and Analytical ApplicationsDepartment ChemistryDivision Analytical Chemistry
Adnan Menderes University Faculty of Arts ad Sciences 09010 AydinPhone: 0256-212 84 98/ 2207 e-mail: [email protected]
Course Objective and brief Description
The main objective of this course is to give fundamental principles of molecularly imprinted polymers and their applications in analytical chemistry field.
Textbook and Supplementary readings1 Molecularly Imprinted Polymers:
Man-Made Mimics of Antibodies and their Application in Analytical Chemistry, Elsevier 2001.Edited by B. Sellergren
COURSE CALENDAR / SCHEDULE
Week Lecture topics Practice/Lab/Field1 Fundamental principles of molecular imprinting
2 Covalent imprinting
3 Non-covalent imprinting
4 Imprinting based on metal-coordination
5 Methods for synthesis and characterization of molecularly imprinted polymers
6 Metal ion imprinting technique
7 Metal ion imprinted polymer based solid-phase extraction
8 Mid-term exam
9 Imprinting of biological macromolecules
10 Molecularly imprinted polymer based solid-phase extraction, separation and preconcentration
11 Applications of molecularly imprinted polymers based on high performance liquid chromatography
12 Additional chromatographic applications of molecularly imprinted polymers
13 Sensor applications of molecularly imprinted polymers
14 Final exam
Course assessment will be weighted 40 % for one mid-term exam and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS AND SCIENCE
Course Title Sample Preparation for AnalysisDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Basic information about the samples according to their solid, liquid, gas, organic, inorganic and biologic physical states and to the preparation of their applied instrumental methods
Textbook and Supplementary readings1 Somenath Mitra (2003), Sample Preparation Techniques in Analytical Chemistry, Wiley & Sons Publication234
9 Extraction of volatile organic compounds from solids and liquids
10 Preparation of samples for metal analysis
11 Wet digestion methods, microwave digestion and dry ashing for metal analysis
12 Organic extraction of metals, extraction with supercritical fluids for metal analysis
13 Ultrasonic sample preparation, solid-phase extraction for preconcentration
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Adnan Menderes University Science and Arts Faculty 09100 AydınTel: 256 2128498 \ 2204 [email protected]
Course Objective and brief Description
To prepare the student to postgraduate studies in organic chemistry. To make the studens to have a decision about reaction conditions of organic reactions. Learning how to organic reactions proceed, including reaction conditions. Learning how to choise of starting materiels and methods to go to the products.
Textbook and Supplementary readings
1 Carey, F.A., Sundberg, R.J., Advanced Organic Chemistry; Part A and Part B, Plenum Pres, New York, 1991
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of SCIENCE AND ART
Course Title Chemistry of Boron CompoundsDepartment ChemistryDivision in the Dept. Coorparate
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKIM523 Fall MS.c Elective Turkish 3 - 3 7Course Prerequisites Non
Name of Instructors
Assoc. Professor. Dr. Yüksel Şahin
Instructor Information
Adnan Menderes university Faculty of Science&Art 09100 Aydin Tel:0256 2128498 [email protected]
Course Objective and brief Description
This course emphasizes the understanding of chemical reactions through atomic and molecular structure elemental boron and their compounds. In addition to explore basic concepts and principles of boron compounds and their applications in chemistry and closely-related fields
Textbook and Supplementary readings1 E. Riedel (2004) Anorganische Chemie, Walter de Gruyter Berlin-New York.2 C. Elschenbroich, A.Salzer (1992), Organometallics, VCH .3 G.L, Miessler, D.A., Tarr (1999), Inorganic Chemistry, Prentice-Hall.4 N.Wiberg, A.F.Holleman, E. Wiberg (2001) Inorganic chemistry, Walter de Gruyter Berlin-New York.
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ART and SCIENCE
Course Title Synthesis Technics and Organic Analysis
Department Chemistry
Division in the Dept. Organic Chemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 525 1 (Fall) Master Elective English 3 0 3 7
Course Prerequisites none
Name of Instructors
Asist.Prof.Dr. İlknur BABAHAN
Instructor Information
[email protected] Menderes Üniversity, Faculty of Art and Science, Department of Chemistry, Organic Chemistry Division, 09010, Aydın-TURKEY.
Course Objective and brief Description
To prepare the student to postgraduate studies in organic synthesis. To make the students to have a decision about reaction conditions of organic reactions. Learning how to organic reactions proceed, including reaction conditions. Learning how to choise of starting materials and methods to go to the products.
Textbook and Supplementary readings1 Furniss, B.S., Practical Organic Chemistry (Fifth Edition), New York, 1991.
1 General methods for purification of organic compounds
2 Organic analysis
3 Reaction of functional groups of organic compounds
4 Drying and cleaning of organic solvents
5Organic preparates ( Reaction of aldehydes and ketones with alcohols, Reaction
of carboxylic acids and anhydrides with alcohols in acids media
6 Organic preparates (Reaction of anhydrides and chlorides of carboxylic acids with carboxylic acids)
7 Organic preparates ( Reaction of carbon nucleophiles with carboxylic acid ester
8 Midterm exam
9 Organic preparates ( Reaction of carbon nucleophiles with carbon dioxide
10 Organic preparates (Preparation of acid chlorides)
11 Organic preparates ( Reaction of aldehydes and ketones with ketones as CH- acid)
12 Organic preparates (Reaction of halogens and ketones with aromatic compounds)
13 Organic preparates ( Reaction of diazonium salts with aromatic compounds)
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
4 Quantum mechanics, Particle in a Box, Hydrogen atoms
5 Quantum Numbers, Atomic Wave Functions
6 Aufbau Principle, Periodic table, Shielding
7 Periodic properties of atoms
8 Midterm Exam
9 Valence Bond Theory (VBT)
10 Lewis Electron Dot Diagrams, Formal Charge, Resonance
11 Valence Shell Electron Pair Repulsion Theory (VSEPR)
12 Electronegativity, Polar Bonds
13 Molecular Orbital Theory (MOT)
14 Hydrogen Bonding
Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
7 Projection operators and symmetry adapted linear combinations
8 Midterm Exam
9 Applications-optical isomerism, polarity
10 Hybrit orbitals
11 Molecular vibrations, IR and Raman activity
12 Ligand Field Theory
13 Molecular orbitals
14 Final Exam
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
9 Magnetic properties of transition metal complexes
10 Magnetic susceptibility
11 Determination of magnetic susceptibility
12 Magnetic moments from magnetic susceptibility
13 Applications
14 Final Exam
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
The subject of this course is the molecular approach in the development of catalysts for applications in
laboratory and industry. Emphasis will be on transition metal catalyzed reactions. Important aspects like
mechanistic studies, kinetics, and effects of the nature of the metal ion and ligand structure will be
explained.
Dersin Kitabı ve Yararlanılacak Diğer Kaynaklar1 P.W.N.M. van Leeuwen, Homogeneous Catalysis, Kluwer Academic Publishers, Dordrecht 2004
DERS İŞLEME PLANIHafta Teorik Uygulama/Laboratuvar/Tarla
1 Definition of catalyst
2 Properties of catalyst
3 Homogenous catalysis
4 Heterogeneous catalysis
5 Catalytic cycle
6 Factors effects on catalyst activity
7 Asymmetric transfer hydrogenation
8 Ara Sınav
9 Rhodium-catalysed hydroformylation
10 Homogenous catalysis by transition metal complexes
11 Cross-coupling reactions
12 Palladium catalysts for C-C, C-N and C-O Bond formation
13 Important industrial catalysis
14 Yarıyıl sonu sınavı
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Advanced Polymer Chemistry
Department ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of polymer chemistry. Advanced synthesis and some special polymeric reactions have been coursed in this lecture.
Textbook and Supplementary readings1 The Elements of Polymer Science and Engineering, Alfred Rudin, Academic Press, Inc. 1982.2 Introduction to Polymer Chemistry, Raymond B. Seymour, McGraw-Hill Kogakuska, 1971
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Chemical ThermodynamicsDepartment Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of Chemical Thermodynamics.
Textbook and Supplementary readings1 Physical chemistry, Gilbert W. CASTELLAN, Addison-Wesley Publishing, World Student series edition, 1980,2 Kimyasal Termodinamik, Namık. K. Tunalı, Baylan R. Türkmen, ODTÜ FEF Yayınları No; 32, ODTÜ, Ankara
2 Thermodynamic equilibrium and thermodynamic properties
3 The first law of thermodynamics
4 Energy, Entalphy and Heat capacities
5 The hess’s law, Standart entalphy chancing, Bonding energy
6 The second law of thermodynamics, Reversible transformations, Entropy
7 Quiz
8 Carnot cycle, The residual entropy
9 Free energy and Chemical Equilibrium
10 Mixtures and free energy
11 The chancing of free energy at chemical reactions
12 Equilibrium constant and chancing with temperature
13 Colligative properties
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Advanced BiochemistryDepartment Chemistry
Division in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 553 I. Fall MSc Obl. Turkish 3 0 3 9Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
This course is intended to provide the students with a thorough grounding in biochemistry. The subjects of the course are chosen to give a brief knowledge of biochemistry to beginning graduate students.
Textbook and Supplementary readings1 Lehninger Principles of Biochemistry, 2004 D.L. Nelson, M.M. Cox, W.H.Freeman ISBN 07167433962 D.Voet, J.G. Voet, Biochemistry, 1995, John Wiley ISBN 047158651X3 Biyokimya cilt I-II. 2001, Gözükara E. M., Nobel Tıp Kitabevleri, İstanbul
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY of ARTS and SCIENCES
Course Title Fundamentals of EnzymologyDepartment ChemistryDivision in the Dept. Biochemistry
Lecture Lab Credit ECTS CreditKİM 555 I. Fall MSc Elective Turkish 3 0 3 7Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
The aim of this course is to give a broad account of enzymology. The ultimate goal of the course is to point out the crucial role that enzymes play in the metabolic processes of living organisms.
Textbook and Supplementary readings1 Fundamentals of Enzymology, 1999. Nicholas C. Price, Lewis Stevens. Oxford University Pres, USA. ISBN
019850229.2 Fundamentals of enzymology unpublished Lecture notes (in Turkish). Assoc. Prof. Dr. A. Alev Karagözler.
14 Immobilized enzymes.Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY OF SCIENCE AND ARTS Course Title Enzyme Biotechnology
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Biotechnology and Biomedicine
Department Chemistry
Division in the Dept. Biochemistry
Code Term Level Type Language Credit hours/week
Lecture Lab Credit ECTS Credit
KİM 559 1 (Fall) MSc Elective Turkish 3 0 3 7
Course Prerequisites None
Name of Instructors Assoc. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010
1 General information, historical aspects and description of Biotechnology
2Description and research areas of Biomedicine Engineering, Biochemistry
Engineering and Genetic Engineering.
3Research areas about human health of Biomedicine Engineering, Biochemistry
Engineering and Genetic Engineering.
4Research areas about agriculture of Biomedicine Engineering, Biochemistry
Engineering and Genetic Engineering.
5Market of biological product, Different fermentors and fermentor designing for
production of biological product.
6Market of biological product, Different fermentors and fermentor designing for
production of biological product.
7Production and purification of diagnostically and therapeutically important
biomaterials in bioreactors.
8 Midterm Exam
9 Polymer application in recombinant DNA processess.
10 Separation technologies about purification of plazma proteins
11 Chromatographic Techniques
12 Affinity Chromatography
13 What might be in the future?
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Biochromatography
Department Chemistry
Division in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 561 1 (Fall) MSc Elective Turkish 3 0 3 7
Course Prerequisites None
Name of Instructors Asst. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2208, [email protected]
Course Objective and brief Description
This course aims teach the upstream and downstream steps in biochromatography, different biochromatographic methods especially affinity chromatography, industrial biochromatography, biochromatography and biomedical applications.
Textbook and Supplementary readings1 Biochromatography, MA Vijayalakshmi, Taylor and Francis, 2002.
12 Imprinted polymers as tailor-made stationary phases for affinity separation
13 Industrial biochromatography, biochromatography and biomedical applications
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCE
Course Title Environmental ChemistryDepartment ChemistryDivision in the Dept. Corporate
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KIM 506 Spring Msc Elective Turkish 3 - 3 7Course Prerequisites None
Name of Instructors
Professor. Dr. Mustafa DEMİR
Instructor Information
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
The course is designed to offer chemistry students a thorough knowledge and understanding of a wide range of environmental problems; their causes and effects and how to control them. The course covers chemical cycles, water pollution and water treatment, the atmosphere and atmospheric pollutants-both organic and inorganic gases-the ozone layer, the global warming, acid rain, photochemical smog and soil chemistry. It also covers the nature and sources of hazardous wastes, their chemistry and toxicological effect. The role of technology in both creating and solving environmental problems will be discussed whenever appropriate.
Textbook and Supplementary readings1 Stanley E. Manahan (1993), Fundamentals of environmental chemistry, Lewis Publishers234
3 Environmental chemistry of water and chemical equilibrium
4 Water treatment
5 Sediments and the nature of solids
6 Soil pollution and chemical reactions in soil
7 Atmosphere and atmospheric chemistry
8 Midterm Exam
9 Inorganic air pollutants
10 The nature and sources of hazardous substances and environmental chemistry
11 Toxicological chemistry
12 Global warming and green effect gases
13 Acid rain and destruction of ozone layer
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCE
Course Title Environmental StandardsDepartment ChemistryDivision in the Dept. Corporate
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KIM 508 Spring Msc Elective Turkish 3 - 3 7Course Prerequisites None
Name of Instructors
Professor. Dr. Mustafa DEMİR
Instructor Information
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Learning the law ,regulations and standards about environment. Comparison of standards in Turkey and in Europen Union.
Textbook and Supplementary readings1 Türk Çevre Mevzuatı, Türkiye Çevre Vakfı Yayınları: 2 cilt2 Franson M. A. H. (1995), Standard Methods, APPA 34
13 United Nations and Europen Union environmental standards
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Seperation Methods in ChemistryDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
The main objective of this course is to give fundamental principles of separation science, with special emphasis on chromatography. Counter current extraction or other partition processes will be dealt with in their relation to chromatography. Afterwards, the basic principles and instrumentation of each chromatographic technique will be discussed. Hyphenated methods will also be thought.
Textbook and Supplementary readings1 Chromatography and Separation Science. S. Ahuja. Academic Press, 20032 Introduction to Separation Science. B.L. Karger, R.L. Snyder, C. Horvath. John Wiley & Sons; 19733 Analytical Chemistry. A Modern Approach to Analytical Science. Editörler: R. Kellner, J.M. Mermet, M.
Otto, M. Valcarcel, H.M. Widmer. Wiley-VCH, 2004.4
1 Simple separation methods2 Equilibrium processes and molecular basis in separation3 Mass transport and separation4 Liquid-liquid extraction5 Chromatographic Theory6 Qualitative and quantitative analysis7 Gas chromatography8 Capillary column gas chromatography9 Liquid chromatography
10 Liquid chromatography instrumentation11 Paper and thin layer chromatography12 Hyphenated methods13 Electrophoresis14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Avanced Electroanalytical ChemistryDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
Modern electroanalytical techniques are classified as they are related to static and dynamic processes. The use and meaning of fundamental equations of electrochemistry are dealt with in relation to particulars of each technique. The difference in measurement systems of potentiometry and voltammetry are accented and electrodes used in each technique are presented.
Textbook and Supplementary readings1 Fundementals of Electroanalytical Chemistry. P. Monk. John Wiley& Sons, 20022 Analytical Electrochemistry.Second Ed. J. Wang. Wiley-VCH, 20003 Electroanalysis. C.M.A. Brett, A.M.O.Brett. Oxford University Press, 1998.4
1 Nomenclature and terminology2 Equilibrium and dynamic measurements3 Potentiometry4 Dynamic electrochemistry and chronoamperometry5 Coulometry and Faraday Laws6 Polarography at mercury electrodes7 Linear sweep and cyclic voltammetry at solid electrodes8 Pulse methods9 Stripping voltammetry
10 Convective systems. Rotating disk electrode11 Flow ceels and wall-jet electrodes12 Rate constants of electron transfer13 Electrode preparation and microelectrodes14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCE
Course Title Analytical Chemistry of MetalsDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Fundamental techniques about the determination of metals in industrial products such as ores and alloys and also techniques about the determination of trace metals in environmental and biological systems
Textbook and Supplementary readings1 Rock and Mineral analysis, J.A.Maxwell, Interscience Publishers, Newyork, 1968 2 Methods for Environmental Trace Analysis, J.R.Dean, John Wiley and Sons, 20033 Photometric determinations of trace metals, E.B.Sandell, H.Onishi, John wiley and sons, 19784
4 Antimony – aluminum chemistry and alloy analysis
5 Chromium – iron chemistry and alloy analsis
6 Lead – manganese – boron chemistry and alloy analysis
7 Steel analysis
8 Midterm Exam
9 Silica – copper – nickel analysis in steel
10 Tin – lead - copper analysis in brass, bronze and solder
11 Iron – zinc – aluminum analysis in brass, bronze and solder
12 Trace metal analysis
13 Trace metal analysis
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Ionic EquilibriaDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
Ionic equilibria in aqueous solutions are examined, from the points of qualitative and quantitative analysis, at a more advanced level thought at undergraduate level. Carbon dioxide equilibria in ecosystems and pH diagrams in brines are treated in detail. The automated calculations are exemplified using computer programs.
Textbook and Supplementary readings1 Ionic Equilibrium: Solubility and pH Calculations. J.N. Butler. John Wiley & Sons, 19982 Qualitative Analysis with Ionic Equilibrium. R.K. Wismer. MacMillan Publishing Co., 1991 34
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCE
Course Title Analytical SpectrometryDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Fundamentals of atomic and molecular spectrometry and introduction of the instruments used in spectrometry
Textbook and Supplementary readings1 L. de Galan, 1971, Analytical Spectrometry, Adam Hilger Ltd, London2 W.J. Price, 1979, Spectrochemical Analysis by Atomic Absorption, Heyden and Son Ltd34
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
5 Synthesis and properties of vat and indigoid dyes
6 Synthesis and properties of pthalocyanine dyes
7 Synthesis and properties of polymethine dyes
8 Midterm Exam
9 Synthesis and properties of di- and tri-arylcarbonium dyes
10 Examination of spectral properties of dyes.
11 Relationship between color and constitution
12 Explaination of colors with valans and molecular orbital teori
13 Photochromism
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of SCIENCE and ARTS
Course Title Spectroscopic TechniquesDepartment ChemistryDivision in the Dept. Corparate
Adnan Menderes University Science and Arts Faculty 09100 AydınTel: 256 2128498 \ 2204 [email protected]
Course Objective and brief Description
This lecture course teaches students how to use modern spectroscopic techniques for the structural characterization of molecules. Lecture sessions will cover topics in the theory and practical applications associated with, UV-VIS, infrared absorption spectroscopy, and Nuclear Magnetic Resonance Spectroscopy (1H, 13C, and 2D experiments). Students will apply all of these techniques in the lesson (principally NMR) for the structural characterization of known and unknown molecules.
Textbook and Supplementary readings1 Spektroskopische Methoden in der organischen Chemie, M. Hesse, H. Meier, B. Zeeh, G. T. Verlag Stuttgart2 Spectroscopic Identification of Organic Compounds, R. M. Silverstein, F. X. Webster, Wiley, 1998.34
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Instructor Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010
Information Aydın, Telephone:+90256 2128498 Office: 2207, [email protected] Objective and brief Description
This course follows “Coordination Compounds” which deal with the thermodynamic and spectroscopic properties of inorganic complexes and will deal with the ways in which such complexes react.
Textbook and Supplementary readings1 Tunalı N.K., Özkar, S., (1999) Anorganik Kimya, Gazi Üniversitesi Yayınevi2 Gündüz, T. (1994) Koordinasyon Kimyası, Ankara Üniversitesi, Fen Fakültesi3 Shriver D.F., Atkins P. W., Langford C. H., (1991) Inorganic Chemistry, Oxford Chemistry 4 Miessler G.L., Tarr D.A., (1999) Inorganic Chemistry, PrenticeHall, 5 Housecroft C.E., Sharpe A.G., (2001) Inorganic Chemistry, 1st Ed, PrenticeHall 6 Huheey J.E., Keiter E.A., Keiter R.L., (1993) Inorganic Chemistry, 4th Ed., Harper Collins 7 Arthur E. Martell, , (1978) Coordination Chemistry, Volume 1-2, Texas AM University College Station, Texas
5 Nomenclature of coordination compounds and ligands
6 Chemicals bonding in coordination compounds
7 Valence bond theory (VBT)
8 Midterm Exam
9 Crystal field theory (CFT)
10 Ligand field theory (LFT)
11 Molecular orbital theory MOT)
12 Electronical transitions in coordination compounds
13 Magnetic properties of coordination compounds
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
11 Structure of metal-carbene and metal-carbyne complexes
12 Spectral analysis and characterization of organometallic complexes
13 Applications of organometallic chemistry
14 Final Exam
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2207, [email protected]
Course Objective and
The aim of this course is to study some basic group elements of the compounds having cyclic inorganic structure showing paralelism with organic chemistry.
brief Description
Textbook and Supplementary readings1 Tunalı, N. K. ve Özkar, S., (1999)Anorganik kimya, Gazi Kitabevi, Ankara2 Shriver D.F., Atkins P. W., Langford C. H., (1991) Inorganic Chemistry, Oxford Chemistry 3 Miessler G.L., Tarr D.A., (1999) Inorganic Chemistry, PrenticeHall4 Housecroft C.E., Sharpe A.G., (2001) Inorganic Chemistry, 1st Ed, PrenticeHall5 Huheey J.E., Keiter E.A., Keiter R.L., (1993) Inorganic Chemistry, 4th Ed., Harper Collins
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Advanced Physical ChemistryDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course This lecture is designed to provide a solid background for students who intend to go on
Objective and brief Description
to the graduate study and a thorough background in the fundamentals of physical chemistry. Experimental applications of the chemical kinetics and the principals of the chemical kinetics have been coursed in this lecture.
Textbook and Supplementary readings1 Physical Chemistry, P. W. ATKINS, Oxford University Press2
1 Fundamental Chemical Concepts, The ideal gas law
2 Kinetic theory of gases, Real gases
3 The critical state, Liquids, The critical temperature, Vaporization
4 Surface tension, Solids, X-rays diffraction
5 The laws of thermodynamics, The zeroth, the first, the second and the third law of thermodynamics
6 Property of entropy and probability
7 The structure of matter
8 Quiz
9 The principals of mixture systems
10 Thermo chemistry, Chemical equilibrium and free energy.
11 Phase diagrams and physical equilibrium, Liquid-solid-vapor equilibriums, General characteristics of the solutions
12 Colloids, The principals of the chemical kinetics
13 Experimental applications of the chemical kinetics
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Polymer MixturesDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and This lecture is designed to provide a solid background for students who intend to go on
brief Descriptionto the graduate study and a thorough background in the fundamentals of polymer mixtures and for characterization of polymer chemistry.
Textbook and Supplementary readings1 Physical Chemistry of Polymers, A. TAGER, MIR Publishers, 1978, MOSCOW2
5 Determination of glassy-transition temperatures of polymer mixtures
6 Three component systems, Polymer compatibility determined by various methods
7 Thermodynamics of binary polymer-polymer systems
8 Quiz
9 Mechanical properties of polymer mixtures
10 Enthalpy of mixing of two polymers
11 Free energy of mixing of polymers
12 Entropy of mixing of two polymers
13 Phase diagrams of polymer-polymer systems
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Biochemical TechniquesDepartment ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 554 II. Spring MSc Elective Turkish 3 0 3 7Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
This course is intended to provide the graduate student a brief knowledge of theory and practice of biochemistry lab and research. Practice is done on papers selected from the literature.
7 Electrophoretic Techniques: Types of electrophoresis.
8 Use of radioisotopes in biochemical analysis.
9 Qualitative and quantitative methods for determining biological molecules.
10 Biological preparations.
11 Purification of proteins.
12 Enzymology.
13 Structural analysis of biological molecules.
14 Structural analysis of biological molecules.
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY of ARTS and SCİENCES
Course Title Natural MacromoleculesDepartment ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 556 II. Spring MSc Elective Turkish 3 0 3 7Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
This course presents the graduate student a systematic approach to macromolecular structure – function relationship. Tools for structure analysis of macromolecules are also discussed.
Textbook and Supplementary readings1 Protein Engineering, 1996, Jeffrey L. Cleland, Charles S. Craik, Wiley-Liss. ISBN 04711035432 Self – Organization of Complex Structures 1997, Frank Schweitzer CRC Pres. ISBN 9056990276
1 Chemical and three – dimensional structure of proteins.
2 Protein synthesis and modification.
3 Analysis of protein structure and X-ray crystallography.
4 Structure – function relationship in proteins.
5 Chemical and three – dimensional structure of nucleic acids.
6 Synthesis of nucleic acids.
7 Analysis of nucleic acid structure.
8 Structure – function relationship of nucleic acids.
9 Chemical and three – dimensional structure of polysaccharides.
10 Types of polysaccharides and structure – function relationship.
11 Structure and dynamics of natural membranes.
12 Complex macromolecules.
13 Oral presentation
14 Oral presentation
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY of ARTS and SCIENCES
Course Title Methods in Enzymatic AnalysisDepartment ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 558 II. Spring MSc Elective Turkish 3 0 3 7Course Prerequisites None
Name of Instructors
Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description This course is intended to serve o graduates who wish to deal with the principles and methods of
enzymatic analysis. It presents theoretical knowledge as well as principles that are necessary for practical work.
Textbook and Supplementary readings1 Principles of Enzymatic Analysis, H. U. Bergmeyer, K. Gawehn, 1978, Werlag Chemie, ISBN 3-527-25678-42 Enzim Bilgisi, 1994. Understanding Enzymes’dan çeviren S. Cengiz, M. Cengiz. Bilimsel ve Teknik Yayınları Çevri
1 Terminology, importance and limits of enzymatic analysis.
2 Theoretical principles: Reaction kinetics.
3 Determination of Michaelis constant.
4 Determination of metabolites.
5 Determination of catalytic activity of enzymes.
6 NAD(P) – dependant reactions.
7 Principles of enzyme – immunoassays.
8 Reagents for enzymatic analysis.
9 Sample handling.
10 Absorption photometry.
11 Automation of analysis.
12 Enzymatic analysis with radiobiochemicals.
13 Evaluation of experimental results.
14 Discussion
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY OF SCIENCE AND ARTS Course Title Heavy Metal Toxicities
1Elemental composition of the human body, biochemically important elements
and its roles in the body.
2 Effects of heavy metals
3 Alüminium: metabolism, toxicities, and related disease
4 Arsenic: metabolism, toxicities, and related disease
5 Mercury: metabolism, toxicities, and related disease
6 Lead: metabolism, toxicities, and related disease
7 Iron: metabolism, toxicities, and related disease
8 Midterm Exam
9 Cadmium: metabolism, toxicities, and related disease
10 Crom: metabolism, toxicities, and related disease
11 Antidots using metal poisoning theraphy
12 Separation methods
13 Methods and applications of heavy metal removal
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Rapid progress in the application of antioxidant substances warranted the need of knoqledge on antoxidants
and related methods. In this course, it is aimed to give a through definition of antioxidants and types of
antioxidants and their analysis methods will ve discussed.
Textbook and Supplementary readings1 Antioxidant determination methods. Prof. Dr. A. Alev KARAGÖZLER (unprinted lecture notes)2 Walton, N.J., Brown, D.E. (1999) Chemicals From Plants. Imperial College Qress, London. ISBN: 981-
02-2773-63 Cadenas, E., Packer, L. (2001) Handbook of Antioxidants. Marcel Dekker Inc. New York. ISBN: 0-8247-
6 Antioxidant determination methods and their chemical basis
7 Methods dependant on electron transfer (ET)
8 Methods dependant on hydrogen atom transfer (HAT)
9 Other related antioxidant determination methods
10 Plant antioxidant sources
11 Midterm Exam
12 Current antioxidant research
13 Current antioxidant research
14 Student presentation on antioxidant research
Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Liquid ChjromatographyDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
The importance of modern liquid chromatography in other chromatographic methods and the place of HPLC amongst the analytical methods are introduced. The modes of liquid chromatography (adsorption, partition, ion-exchange and size exclusion) are presented in detail. Instrumentation of HPLC is introduced in real laboratory conditions. The applications of liquid chromatographic analysis in biomedical, clinical, environmental, food pharmaceutical areas are examined.
Textbook and Supplementary readings
1 High Performance Liquid Chromatography. Fundamental principles and practice. Eds: W.J. Lough, I.W. Wainer. Chapman & Hall, 1996
2 Practical High Perfonce Liquid chromatography. V.R. Meyer. Wiley-VCH, 20043 Introduction to Modern Liquid Chromatography. L.R. Synder, J.J. Kirkland. John Wiley & Sons, 19794
1 HPLC versus other analytical methods2 Efficiency, retention, selectivity and resolution 3 Modes of chromatography. Partition and adsorption4 Modes of chromatography. Ion exchange and size exclusion5 Normal and reverse phase chromatography6 Support materials and solvents7 Instrumentation. Pumps, injectors and column design8 Instrumentation. Detectors9 Method development and quantitation
10 Sample preparation11 HPLC in biomedical and clinical analysis12 HPLC in environmental analysis13 HPLC in food and pharmaceutical analysis14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS AND SCIENCE
Course Title Atomic SpectrometryDepartment ChemistryDivision in the Dept. Corporate
13 Comparison of flame, furnace and plasma spectrometric techniques
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title ChemometricsDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
After having recalled the subject of descriptive statistics and statistical tests, regression and correlation are discussed on actual analytical data. Afterward, the subject of experimental design with special emphasis on optimization is examined. The need for classification and pattern recognition of analytical data is stressed and methods of principal component, cluster and discriminant analysis are presented both in a theoretical and practical fashion.
Textbook and Supplementary readings1 Chemometrics. M. Otto. Wiley-VCH, 1999.
2 Statistics and Chemometrics for Analytical Chemistry, 4th Ed.. J.N. Miller, J.C. Miller. Pearson Education Ltd., 2000
3 Statistical Methods for Chemists. W.P. Gardiner. The Royal Society of Chemistry, 19974
1 Descriptive statistics2 Statistical tests3 Analysis of variance4 Regression and correlation5 Experimental design and optimization6 Response surface methods7 Sequential optimization8 Factorial methods. Principal component analysis9 Cluster analysis
10 Discriminant analysis11 Nonlinear regression12 Nonparametric tests13 Quality control in analytical chemistry14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS AND SCIENCE
Course Title Chemical SpeciationDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Importance of speciation, speciation techniques, separation and preconcentration techniques, speciation of various elements.
Textbook and Supplementary readings1 Rita Cornelis, Joe Caruso, Helen Crews, Klaus G. Heumann (2005), Handbook of Elemental Speciation, Handbook of
Elemental Speciation II: Species in the Environment, Food, Medicine and Occupational Health, Wiley2 Rita Cornelis, Joe Caruso, Helen Crews, Klaus G. Heumann (2003), Handbook of Elemental Speciation: Techniques
and Methodology, Wiley3 A.M.Ure, C.M.Davidson, (2002), Chemical Speciation in the Environment
4COURSE CALENDAR / SCHEDULE
Week Lecture topics Practice/Lab/Field1 Description of speciation, basic techniques of speciation
2 Sample preparation techniques for elemental speciation studies
3 Separation techniques : (liquid chromatography, gas chromatography and other gas based methods)
4 Capillary electrophoresis and gel electrophoresis in speciation analysis
5 Detection by atomic spectrometry for the speciation
6 Speciation analysis by electrochemical methods
7 Direct speciation of solids
8 Midterm Exam
9 Calibration in elemental speciation analysis
10 Elemental speciation - I
11 Elemental speciation - II
12 Speciation of soil, sediment and waste water
13 Speciation in biological systems
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS AND SCIENCE
Course Title Aquatic ChemistryDepartment ChemistryDivision in the Dept. Corporate
Professor. Dr. Mustafa DEMİR Prof. Dr. A.Ersin KARAGÖZLER
Instructor Information
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Composition of water and chemical equilibrium of water in natural environment, chemical equilibrium and solubility, origin of water composition and analysis of water.
Textbook and Supplementary readings1 Manahan, Stanley E. (2000), Fundamentals of aquatic chemistry, CRC Press LLC23
4COURSE CALENDAR / SCHEDULE
Week Lecture topics Practice/Lab/Field1 Water quality
2 Acid-base chemistry of aquatic systems
3 Water acidity and carbon dioxide equilibrium in water
4 Thermodynamic equilibrium in water
5 Solubility in water
6 Calcium and other metals in water
7 Phosphorus, iron and manganese
8 Midterm Exam
9 Aquatic life
10 Gases in water
11 Complexation and chelation, calculations of species concentration
12 Polyphosphates in water
13 Complexation by humic substances, complexation and redox processes
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
2 Use of kinetic data to explain organic reaction mechanism
3 Use of free energy chance principles
4 Stereochemistry
5 Properties of asid and base
6 Investigation of reaction mediate
7 Nucleophilic substitution
8 Midterm Exam
9 Electrophilic substitution
10 Elimination reactions
11 Free-radical reactions
12 Rearrangement reactions.
13 Pericyclic reactions
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ART and SCIENCE
Course Title StereochemistryDepartment ChemistryDivision in the Dept. Organic Chemistry
6 Conformational, steric and streo electronic effects
7 Chiral compounds
8 Midterm exam
9 Stereochemistry of radicalic, nucleophilic and elimination reactions
10Anty-Elimination in Stereospesific and stereoselective, Syn-Elimination in stereospesific and stereoselective Non-stereospesific elimination
11 Symmetric and asymmetric synthesis
12 Stereochemistry of molecular rearrengements
13 Stereochemisry of pericyclic reactions
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of SCIENCE AND ART
Course Title Organoboron ChemistryDepartment ChemistryDivision in the Dept. Coorparate
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKIM 627 Fall Ph.D Elective Turkish 3 - 3 9Course Prerequisites Non
Name of Instructors
Assoc. Professor. Dr. Yüksel Şahin
Instructor Information
Adnan Menderes university Faculty of Science&Art 09100 Aydin Tel:0256 2128498 [email protected]
Course Objective and brief Description
This courses encompasses organoboron compounds as well as polymers solid-state materials medicinal aspects and theoretical studies. In addition to include applications to polyolefin catalysis, medicine materials, polymers, novel optical and electronic properties.
Textbook and Supplementary readings1 E. Riedel (2004) Anorganische Chemie, Walter de Gruyter Berlin-New York.2 C. Elschenbroich, A.Salzer (1992), Organometallics, VCH .3 G.L, Miessler, D.A., Tarr (1999), Inorganic Chemistry, Prentice-Hall.4 N.Wiberg, A.F.Holleman, E. Wiberg (2001) Inorganic chemistry, Walter de Gruyter Berlin-New York.
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
10 Pigments of photo.- thermo,- and electrochemical reactions
11 Pigments in pictures
12 Pigments in record and data systems
13 Fadeness of dyes
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
3 The elements of the first and the second transition series and properties
4 Scandium and Titanium group
5 Vanadium and chromium group
6 Manganese and iron group
7 Cobalt and nickel group
8 Midterm Exam
9 Copper and zinc group
10 Compounds of transition metals with oxides, halides and sulfides
11 Metal carbonyl compounds
12 Complexes and Ligands
13 The Transition elements and their electronic structures
14 Final Exam
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Crystal Solids
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2207, [email protected]
Course Objective and brief Description
The aim of this course is to study the structure and properties of crystal solids formed atoms, ions and molecules that are packed in geometrical arrangement.
Textbook and Supplementary readings1 Miessler, G. L., Tarr, D. A. (Çeviri Editörleri: Karacan, N., Gürkan, P.). İnorganik Kimya. (2002). Palme Yayınları-Ankara 2 Shriver D.F., Atkins P. W., Langford C. H., (1991) Inorganic Chemistry, Oxford Chemistry,3 Cotton, F. A. and Wilkinson, G. (1980) Advanced Inorganic Chemistry, John Wiley & Sons, New York, Fourth Edition4 Huheey J.E., Keiter E.A., Keiter R.L., (1993) Inorganic Chemistry, 4th Ed., HarperCollins,
4 Determination Of Crystal Structure: Diffraction In Crystals (X-Ray, Electron And Neutron),
5 Reuntgen Spectrometry
6 Crystal Chemistry:
7 Crystal Lattice Defects:
8 Midterm Exam
9 Structural Lattice Defects,
10 Chemical Lattice Defects
11 Electrical Lattice Defects
12 The Effect Of Lattice Defects On Diffusion
13 The Effect Of Lattice Defects On Crystal Growth
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS
Course Title The Chemistry of the Lanthanides and the Actinides
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Physical Chemistry of PolymersDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of polymer chemistry and some physical and chemical effects on polymers and polymerization processes.
Textbook and Supplementary readings1 Physical Chemistry of Polymers, A. Tager, MIR Publishers, Moscow, 19782
13 Glassy transition temperature, Enthalpy of mixing of polymers
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Polymer CharacterizationDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of polymer chemistry and some techniques on polymers characterization.
Textbook and Supplementary readings1 Experimental Methods in Polymer Chemistry, Jan F. RABEK, , John Wiley Sons 1980, 2 Textbook of Polymer Science, Fred W. BILLMEYER, JR. Wiley-Interscience Publication, 19843 Hyphenated Techniques in Polymer Characterization, Thermal, Spectroscopic and Other Methods. T. Prowder,
Marek W. URBAN, Howard G. BARTH.ACS Symposium series, No: 581, American Chemical Society, Washington, DC 1994
11 Main spectrophotometric techniques, UV-VIS spectroscopy, IR analysis, Polymer-solvent interactions
12 Quantitative analyis, Qualitative overwiew in polymer characterization.
13 Determination methods of Glassy transition temperature and melting temperature. Mechanical characterization
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Enzyme KineticsDepartment ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 651 I. Fall PhD Elective Turkish 3 0 3 9Course Prerequisites None
Name of Instructors Prof. Dr. A. Alev KaragözlerInstructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
In this course following a brief historical review, a through discussion of enzyme kinetics is made.
Textbook and Supplementary readings1 Enzyme Kinetics, 1993. I.H. Segel , Wiley-Interscience, ISBN: 04713030972 Unpublished lecture notes of the instructor.
12 Determination and meaning of Km, Vmax and kcat.
13 Applications of enzyme kinetics.
14 Applications of enzyme kinetics.
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY OF SCIENCE AND ARTSCourse Title Biochemistry of Nucleic Acids
Department ChemistryDivision in the Dept. Biochemistry
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTSCourse Title Bioistatistic
Department ChemistryDivision in the Dept. Biochemistry
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS
Course Title Biopolymers and Biomaterial
Department ChemistryDivision in the Dept. Biochemistry
Name of Instructors Asst. Prof. Dr. Sinan AKGÖLInstructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2208, [email protected]
Course Objective and brief Description
What are the biomaterials? Basic definitions, metallic biomaterials, ceramic biomaterials, polymerization and basic structure, polymers used as biomaterials, surface modifications for biocompatibility, composite biomaterials, biodegradable polymeric biomaterials, biologic biomaterials: tissue-derived biomaterials, soft tissue replacements, preservation techniques for biomaterials
Textbook and Supplementary readings1 Instructor notes
2 Biomaterials: Principles and Applications, CRC Press, 2002.
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Advanced Biochemical AnalysisDepartment ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 659 I. Fall PhD Elective Turkish 3 0 3 9Course Prerequisites None
Name of Instructors
Assoc. Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
This course discusses the basic analytical principles, analytical methods and use of analytical methods in biochemical research.
Textbook and Supplementary readings1 Principles of Instrumental Analysis. Skoog D. A., Holler F. J., Nieman T. A., 1998, ed. Kılıç E., Köseoğlu F.,
Yılmaz H. Bilim Yayıncılık, Ankara. ISBN 975-556-041-62 Bioanalytical Chemistry. Suzan R. Mikkelsen, Edward Corton, 2004, Wiley – Interscience, ISBN-0- 471-54447-7
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
FACULTY of ARTS&SCIENCES
Course Title Radiation ChemistryDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of radiation chemistry and some techniques on radiation chemistry.
Textbook and Supplementary readings1 Physical Chemistry, Gilbert W. Castellan, , Addison-Wesley Publishing Company, Reading, Massachusetts, 1971 2 The Radiation Chemistry of Macromolecules, Malcolm Dole (editor), Academic press, New York, 19723
2 Fundemental processes and the theory3 Free radical theory4 Nuclear fission (decomposition of nuclei)
5 Nuclear fusion (cooperation of nuclei)
6 The rate of nuclei reaction
7 The analysis of neutron activation8 Quiz9 Energy transfer
10 Thermoluminescence
11 Labeling by radioisotopes
12 Separation of radioisotopes
13 Applications in radiation chemistry
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Therapeutically Selective Polymers
Department Chemistry
Division in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 663 1 (Fall) PhD Elective Turkish 3 0 3 9
Course Prerequisites None
Name of Instructors Assoc. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2208, [email protected]
Course Objective and brief Description
Natural and synthetic polymers with use of polymer in the health industry. Teach the application and research area of therapeutically use of specific sorbents.
Textbook and Supplementary readings1 Instructor notes
3 Use of polymers in the health industry: Application and research area
4 Polymeric biomaterials
5 Polymeric biomaterials
6 Use of polymers in bioseparation processess
7 Blood fractionation
8 Midterm Exam
9 Hemoperfusion ve extracorporal theraphy
10 Body fluids and biomaterials interaction
11 Therapeutically use of specific sorbents
12 Therapeutically use of specific sorbents: Application and research area
13 What might be in the future?
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS AND SCIENCE
Course Title Environmental Analytical ChemistryDepartment ChemistryDivision in the Dept. Corporate
Adnan Menderes University Faculty of Arts and Science 09100 Aydın Tel:0256 2128498 [email protected]
Course Objective and brief Description
Basic analysis techniques of air, water, soil and food by environmental aspect, sample preparation and preconcentration techniques
Textbook and Supplementary readings1 Somenath Mitra (2003), Sample Preparation Techniques in Analytical Chemistry, Wiley & Sons Publication2 Roger Reeve,( 2002), Introduction to Environmental Analysis, John Wiley & Sons Ltd34
1 Description of environment and pollution, the necessity of chemical analysis
2 Sampling and sample species
3 Extraction in sample preparation
4 Enrichment in sample preparation
5Water analysis – major constituents (suspended materials, dissolved oxygen and oxygen demand, total organic carbon, pH, acidity and alkalinity, hardness of water, electrical conductivity)
6 Water analysis – trace pollutants (organic trace pollutants, metal ions)
7 Analysis of solid and waste
8 Midterm Exam
9 Atmospheric analysis
10 Ultra-trace analysis
11 Food analysis
12 Confidence of analysis - statistics
13 Quality control analysis
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Bioanalytical ChemistryDepartment Chemistry Division in the Dept. Biochemistry
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
The aim of this course is to evaluate and discuss the use of basic analytical methods in biochemical research.
Textbook and Supplementary readings1 Bioanalytical Chemistry. Suzan R. Mikkelsen, Edward Corton, 2004, Wiley – Interscience, ISBN-0- 471-54447-72 Bioanalytical Chemistry unpublished Lecture notes. Assoc. Prof. Dr. A. Alev Karagözler.
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam
FACULTY of ARTS & SCIENCES
Course Title Molecular SpectrometryDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
Before teaching the principles and instrumentation of individual methods, common principles of optical spectrochemical methods are discussed in detail. The subjects of the concept of spectrochemical information, spectrochemical methodology and optical components of spectrometers are examined in detail.
Textbook and Supplementary readings1 Spectrochemical Analysis. J.D. Ingle, Jr., S.R. Crouch. Prentice Hall, 19882 Contemporary Instrumental Analysis. K. A. Rubinson, J.F. Rubinson. Prentice Hall, 20003 Analytical Instrumentation. G. Currel. John Wiley & Sons, 20004
1 Spectrochemical measurements2 Optical components of spectrometers3 Sources, transducers and measurement systems
4 Wavelength dispersion5 Dispersive and nondispersive systems6 Signal-to-noise ratio and its enhancement7 Methodology in spectrochemical analysis8 Introduction to molecular spectrometry9 UV and visible absorption spectrophotometry
10 Infrared spectrometry11 Molecular luminescence spectrometry12 Molecular scattering methods13 Surface analysis by spectroscopy and microscopy14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Avanced Voltammetric TechniquesDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
The thermodynamics and kinetics of electrochemical reaction are examined in detail and the resulting concepts and equations are related to individual techniques. Various voltammetric techniques is investigated especially in relation to chemical analysis. Electrodes used in voltammetry and modified electrodes are introduced and also setup of voltammetric experiments are demonstrated.
Textbook and Supplementary readings1 Analytical Electrochemistry.Second Ed. J. Wang. Wiley-VCH, 20002 Laboratory tTechniques in Electroanalytical chemistry. 2nd edition. Eds: P. Kissinger and W. Heineman,
Marcel-Dekker, 19963 Electroanalytical Methods. Ed: F. Scholz. Springer, 20024 Fundementals of Electroanalytical Chemistry. P. Monk. John Wiley& Sons, 2002
10 UV/Vis/NIR spectroelectrochemistry11 Electrodes: Working and reference12 Chemically modified electrodes
13 Electrolytes and experimental setup14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS & SCIENCES
Course Title Chemical SensorsDepartment ChemistryDivision in the Dept. Analytical Chemistry
Adnan menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 AYDINekaragö[email protected]
Course Objective and brief Description
The subject of recognition of ionic and neutral molecular species by agents in membrane matrices is introduced and the principles of thermodynamics and nonthermodynamic assumptions of processes are thought. Types of membranes and membrane models are presented. Some examples of amperometric and optical sensors are reviewed. Additionally, the concepts of sensitivity, selectivity and detection limit in relation to sensors are checked. The problems of sensor miniaturization are discussed.
Textbook and Supplementary readings1 Principles of Chemical and Biological Sensors. D. Diomond. John Wiley&Sons, 19982 Chemical Sensors and Biosensors for Medical and Biological Applicatios. U.E. Spichiger-Keller. Wiley-
VCH, 19983 Introduction to Bioanalytical Sensors. A.J. Cunningham. John Wiley&Sons. 19984
1 The concepts of chemical and biochemical sensors2 Molecular recognition of ions and neutral species3 Reversibility and Thermodynamic equilibrium4 Nonthermodynamic assumtions5 Types of membranes and membrane models6 The membrane composition and membrane medium7 Response behavior, sensitivity, selectivity and detection limit8 Types of ion selective electrodes9 Ion selective optodes
10 Amperometric biosensors 11 Principles of fiber optic chemical sensors12 Glass electrode for pH and amperometric glucose electrode
13 Sensor miniaturization14 Student presentations
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
[email protected] Menderes Üniversity, Faculty of Art and Science, Department of Chemistry, Organic Chemistry Division, 09010, Aydın-TURKEY.
Course Objective and brief Description
The teoric approche to the organic reactions. To prepare the student to postgraduate studies in organic chemistry. To make the studens to have a decision about reaction conditions of organic reactions. Learning how to organic reactions proceed, including reaction conditions. Learning how to choise of starting materiels and methods to go to the products.
Textbook and Supplementary readings1 Carey, F.A., Sundberg, R.J., Advanced Organic Chemistry: Part A and B, Plenum Press, N.Y., 19912 Miller,B., Advanced Organic Chemistry: Reactions and mechanisms, Prentice Hall, N.J., 2004
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
1 Classification and nomenclature of aromatic heterocyclic compounds
2 Synthesis and reactivity of aromatic heterocyclic compounds
3 Pyrdines
4 Ouinolines and isoquinolines
5 Pyrylium and benzopyrylium ions, pyrone and benzopyrones
6 Reactivity and reactions of heterocyclic compounds containing two nitrogen atom
7 Reactivity and synthesis of pyrroles, thiophenes and furans
8 Midterm Exam
9 1,3 and 1,2 azoles and their reactivity
10 Aliphatic heterocyclic compounds
11 Aliphatic heterocyclic compounds containing more than hetero atoms
12 Saturated and partially unsaturated heterocyclic compounds
13 Reactivity and synthesis of saturated and partially unsaturated heterocyclic compounds
14 Final Exam
Course assessment will be weighted 40% for one quiz and 60% for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of SCIENCE and ARTS
Course Title Advanced Organometallics ChemistryDepartment ChemistryDivision in the Dept. Corparate
Adnan Menderes University Science and Arts Faculty 09100 AydınTel: 256 2128498 \ 2204 [email protected]
Course Objective and brief Description
Structure, bonding, and reactions of compounds containing metal-carbon bonds. Special topics include applications of organometallic chemistry to the synthesis of organic compounds. Examples illustrate organometallic chemistry as a bridge between organic and inorganic chemistry.
Textbook and Supplementary readings1 C. Elschenbroich, A.Salzer (1992), Organometallics, VCH .2 E. Riedel (2004) Anorganische Chemie, Walter de Gruyter Berlin-New York.3 Chemistry of the Elements, N.N. Greenwood,19974 G.L. Miessler, D. A. Tarr (1999), Prentice-Hall.
1 Historical Development and Current Trends in Organometallics Chemistry
2 Alkali organometallics
3 Organometallics of Groups 2 and 12
4 Organoelement Compounds of the Boron Group
5 Organoelement Compounds of the Carbon Group
6 Organoelement Compounds of the Nitrogen Group
7 Midterm Exam
8 Organoelement Compounds of Selenium and Tellurium
9 Organometallics of Copper, Silver and Gold
10 -Donor Ligands
11 -Donor / -Acceptor Ligands
12 , -Donor / -Acceptor Ligands
13 Metal-Metal Bonds and Transition Metal Atom Clusters
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2207, [email protected]
Course Objective and brief Description
It will be provide a sound understanding of all the individual elementary processes involving molecules that take place in producing the overall reaction in this class of compounds.
Textbook and Supplementary readings1 Tunalı, N. K. ve Özkar, S., (1999)Anorganik kimya, Gazi Kitabevi, Ankara 2 Miessler, G. L., Tarr, D. A. (Çeviri Editörleri: Karacan, N., Gürkan, P.) (2002) İnorganik Kimya. Palme Yayınları-Ankara3 Cotton, F. A. and Wilkinson, G. (1980) Advanced Inorganic Chemistry, John Wiley & Sons, New York, Fourth Edition4 Douglas, B., McDaniel, D., Alexander, Concepts, J. (1982) Models of Inorganic Chemistry, 3rd ed.; Wiley & Sons, New York,
Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of SCIENCE AND ART
Course Title Chemistry of nonmetals and semimetalsDepartment ChemistryDivision in the Dept. Coorparate
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKIM634 Spring Ph.D Elective Turkish 3 - 3 9Course Prerequisites Non
Name of Instructors
Assoc. Professor. Dr. Yüksel Şahin
Instructor Information
Adnan Menderes university Faculty of Science&Art 09100 Aydin Tel:0256 2128498 [email protected]
Course Objective and brief Description
This course encompasses a comprehensive survey of the chemistry and properties of the Chemistry of nonmetals and semimetals. Topics include syntheses, structures and reactivities of important compounds. In addition, alternative bonding theories which have been used to explain the unique properties of these compounds are critically examined
Textbook and Supplementary readings1 E. Riedel (2004) Anorganische Chemie, Walter de Gruyter Berlin-New York.2 C. Elschenbroich, A.Salzer (1992), Organometallics, VCH .3 G.L, Miessler, D.A., Tarr (1999), Inorganic Chemistry, Prentice-Hall.4 N.Wiberg, A.F.Holleman, E. Wiberg (2001) Inorganic chemistry, Walter de Gruyter Berlin-New York.
1 Introduction of Chemistry of nonmetals and semimetals
2 The Chemistry of Hydrogen and Hydrides
3 The Chemistry of Boron group
4 The Chemistry of Carbon group
5 The Chemistry of Nitrogen group
6 The Chemistry of Halogens and Halides
7 Interhalogen compounds– their preparation, structures and stabilities
8 Midterm exam
9 The Chemistry of noble gases
10 Reaktive intermediates
11 Rings and Chains compounds
12 Cages and clusters compounds
13 Cages and clusters compounds
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title HydrogelsDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of hydrogels polymer chemistry and hydrogel characterization.
Textbook and Supplementary readings1 Polymer Gels and Networks, Yoshihito OSADA, Alexei R. KHOKHLOV, Marcel Dekker, Inc., New York, 2002.2
1 Definition of xerogel and hydrogel, Crosslinking
2 Multifunctional crosslinkers
3 Copolymers
4 Homopolymeric and copolymeric hydrogel synthesis
5 Hydrogel synthesis and preparation by high energy-ionization radiation and gamma rays
6 Chemically hydrogel synthesis by using some crosslinkers in solutions
7 Using of synthetic hydrogels in biomedicine, pharmaceutically applications, veterinary and other fields
8 Quiz
9 Controlled release systems, Drug carrier systems
10 Hydrogels as biomaterial, Hydrogels and adsorption
11Water treatment and purification, Removal of heavy metals and dyes by hydrogels, controlled release of fertilizers and agricultural drugs by hydrogels
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Adsorption in PolymersDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of polymer adsorption properties and some application such as environmental water treatment and water purification by polymers.
Textbook and Supplementary readings1 Physical Chemistry of Polymers, A. Tager, MIR Publishers, Moscow, 19782
7 Mechanism of sorption of low-molecular substances by polymers
8 Quiz
9 Ion-exchange resins
10 Gel ion-exchange resins
11 Standard ion-exchange resins
12 Application of standard ion-exchange resins
13 Macroporous ion-exchange resins
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS and SCIENCES
Course Title Mechanisms of Enzymatic Catalysis Department ChemistryDivision in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS CreditKİM 650 II. Spring PhD Elective Turkish 3 0 3 9Course Prerequisites None
Name of Instructors
Prof. Dr. A. Alev Karagözler
Instructor Information
Adnan Menderes Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 09010 [email protected]
Course Objective and brief Description
Enzyme research is involved both with kinetics and the type of chemical reaction. Therefore, this course aims to understand, explain and investigate the mechanisms of enzymatic reactions that take place in metabolism.
Textbook and Supplementary readings1 Enzymatic Reaction Mechanisms, C. Walsh 1979, W. H. Freeman and Company, ISBN 0-7167-0070-02 Unpublished lecture notes of the instructor.
9 Enzyme catalysed elimination, izomerization and rearrangement reactions.
10 Enzymatic reactions that make and break C-C bonds.
11 Decarboxylation – carboxylation reactions.
12 The chemical logic of metabolic pathways.
13 Examples to the enzymatic reactions.
14 Examples to the enzymatic reactions.
Course assessment will be weighted 40 % for one midterm exam and 60 % for the final exam. Midterm is applied as the mean of the grades taken from one oral and one written presentation. Final is applied as a comprehensive written exam.
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTSCourse Title Carbohydrate Biochemistry
Department ChemistryDivision in the Dept. Biochemistry
This course aims teach the structure of the carbohydrates, classification, and chemical reactions of carbohydrates, glycolitic pathway, glycogen, and ATP production, biosynthesis of carbohydrates, glyconeogenesis, photosynthesis and photorespiration, regulation of carbohydrate metabolic pathway, hormonal and enzymatic regulation of metabolic pathways, integration of carbohydrate and lipid metabolisms, inter-organ relationship in mammalian metabolism, carbohydrate metabolism in different physiological and pathological conditions.
Textbook and Supplementary readings1 Instructor notes
2 Classification, and chemical reactions of carbohydrates
3 Catabolism, digestion and adsorption of the carbohydrates
4 Glycolitic pathway, glycogen, and ATP production
5 Glycolitic pathway, glycogen, and ATP production
6 Biosynthesis of carbohydrates, glyconeogenesis
7 Photosynthesis and photorespiration
8 Midterm
9 Regulation of carbohydrate metabolic pathway
10 Hormonal and enzymatic regulation of metabolic pathways
11 Integration of carbohydrate and lipid metabolisms
12 Inter-organ relationship in mammalian metabolism
13Carbohydrate metabolism in different physiological and pathological
conditions
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Protein Biochemistry
Department Chemistry
Division in the Dept.
Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 656 2 (Spring) PhD Elective Turkish 3 0 3 9
Course Prerequisites None
Name of Instructors Assoc. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010 Aydın, Telephone:+90256 2128498 Office: 2208, [email protected]
Course Objective and brief Description
This course aims teach the definition and classification of proteins, classification of aminoacids, ccid-base behaviour of amino acids, primer, seconder, tertiary and quaterner structures of proteins, stereochemistry of proteins and its absorption spectrums, molecular organizations of proteins and protein denaturation, amino (-NH2) ve carboxy (-COOH) group reactions of proteins, R group reactions of amino acids, protein synthesis mechanism in the cell, enzymes, protein purification.
Textbook and Supplementary readings1 Lecture notes
4 Primer, seconder, tertiary and quaterner structures of proteins
5 Stereochemistry of proteins and its absorption spectrums
6 Molecular organizations of proteins and protein denaturation
7 Protein solubility
8 Midterm
9 Amino (-NH2) ve carboxy (-COOH) group reactions of proteins
10 R group reactions of amino acids
11 Protein synthesis mechanism in the cell
12 Enzymes
13 Protein purification
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Biosensors
Department Chemistry
Division in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 658 2 (Spring) PhD Elective Turkish 3 0 3 9
Course Prerequisites None
Name of Instructors Assoc. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010
6 Application of Potentiometric and amperometric biosensors
7 Optical biosensors
8 Midterm Exam
9 Application of Optic Biosensors
10 Piezo-electric biosensors
11 Application of Piezo-electric biosensors
12 Immunosensors
13 Application of immunosensors
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Adsorption Mechanisms in SolidsDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in the fundamentals of adsorption and some adsorption techniques onto solids.
Textbook and Supplementary readings1 Principles of Colloid and Surface Chemistry, Paul C. Heimenz, Marcel Dekker, Inc. 1977, New York, USA. 23
2 The functionality of catalysts3 Adsorption forces and energy4 Adsorption of gaseous by solids
5 Adsorption of solutes by solids
6 Adsorption isotherms
7 Freundlich, Langmuir, BET isotherms8 Quiz
9 Giles adsorpsiyon ilkeleri ile adsorpsiyon mekanizmalarının aydınlatılması
10 Desorption
11 Adsorption thermodynamics
12 The special applications of adsorption
13 The special industrial application of adsorption
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY of ARTS&SCIENCES
Course Title Statistical ThermodynamicsDepartment ChemistryDivision in the Dept. Chemistry
Instructor Information Adnan Menderes University Chemistry Department 09010 Aydın, Turkey
Course Objective and brief Description
This lecture is designed to provide a solid background for students who intend to go on to the graduate study and a thorough background in statistical thermodynamics.
Textbook and Supplementary readings1 Physical Chemistry, . W. Atkins, Oxford University Press. 1982, London, UK. 23
2 Fundamental statistical definitions3 The partition of relative particles to energy levels4 The partition laws
5 Thermodynamic calculations
6 Entropy and irregularity
7 Statistical entropy8 Quiz9 The partition functions
10 The relativity of thermodynamic quantities with partition functionality
11 The calculation of rate constants by partition functionality
12 Using of statistical thermodynamics
13 Statistical chemical potential
14 Final ExamCourse assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.
FACULTY OF SCIENCE AND ARTS Course Title Artifical Organs
Department Chemistry
Division in the Dept. Biochemistry
Code Term Level Type LanguageCredit hours/week
Lecture Lab Credit ECTS Credit
KİM 666 2 (Spring) PhD Elective Turkish 3 0 3 9
Course Prerequisites None
Name of Instructors Assoc. Prof. Dr. Sinan AKGÖL
Instructor Information
Adnan Menderes University Faculty of Science & Arts Chemistry Department Biochemistry Division 09010
2 Application of synthetic biomaterial using in the artifical organ construction
3 Artifical liver
4 Artifical heart
5 Artifical kidney
6 Artifical lungs
7 Artifical pancreas
8 Midterm Exam
9 Cadmium: metabolism, toxicities, and related disease
10 Cromium: metabolism, toxicities, and related disease
11 Antidots using metal poisoning theraphy
12 Separation methods
13 Methods and applications of heavy metal removal
14 Final Exam
Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.